布朗-塞卡尔-加综合征运动康复基础网状脊髓可塑性的证据:病例报告

Antonia Maria Eilfort, Maria Rasenack, B. Zörner, Armin Curt, Linard Filli
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摘要

布朗-塞卡尔综合征(BSS)是一种罕见的神经系统疾病,由单侧脊髓损伤(SCI)引起。在最初出现同侧偏瘫时,布朗-塞卡尔综合征患者通常会随着时间的推移出现实质性的功能恢复。对实验性 BSS 的临床前研究表明,降序运动系统的自发性神经可塑性是促进功能恢复的关键机制。网状脊髓(RS)系统是主要的降序运动系统之一,在不完全损伤后表现出极高的神经可塑性适应能力。在人体中,人们对脊髓损伤后 RS 的可塑性对功能恢复的贡献知之甚少。在这里,我们使用 StartReact 范式研究了一名布朗-赛夸大综合征(BSPS)患者在伤后五个月对不同肌肉的 RS 运动驱动力。对同侧和对侧肌肉的 RS 驱动力进行了比较,并将其与功能恢复措施联系起来。此外,还使用经颅磁刺激(TMS)对部分肌肉的皮质脊髓(CS)驱动力进行了研究。肱二头肌显示同侧与对侧的 RS 驱动力大幅增强,而同侧没有发现 CS 可塑性的迹象。这一发现意味着同侧肘关节屈曲的运动恢复主要由 RS 系统驱动。同侧胫骨前肌的结果则相反,RS驱动力没有增强,但运动诱发电位在伤后六个月内得到恢复,这表明CS可塑性有助于踝关节外展的改善。我们的研究结果表明,RS和CS可塑性在不同肌肉的运动恢复中的作用是不同的,CS可塑性对四肢远端运动功能的恢复至关重要,而RS可塑性对脊髓损伤后近端屈肌的功能恢复非常重要。
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Evidence for reticulospinal plasticity underlying motor recovery in Brown-Séquard-plus Syndrome: a case report
Brown-Séquard Syndrome (BSS) is a rare neurological condition caused by a unilateral spinal cord injury (SCI). Upon initial ipsilesional hemiplegia, patients with BSS typically show substantial functional recovery over time. Preclinical studies on experimental BSS demonstrated that spontaneous neuroplasticity in descending motor systems is a key mechanism promoting functional recovery. The reticulospinal (RS) system is one of the main descending motor systems showing a remarkably high ability for neuroplastic adaptations after incomplete SCI. In humans, little is known about the contribution of RS plasticity to functional restoration after SCI. Here, we investigated RS motor drive to different muscles in a subject with Brown-Séquard-plus Syndrome (BSPS) five months post-injury using the StartReact paradigm. RS drive was compared between ipsi- and contralesional muscles, and associated with measures of functional recovery. Additionally, corticospinal (CS) drive was investigated using transcranial magnetic stimulation (TMS) in a subset of muscles. The biceps brachii showed a substantial enhancement of RS drive on the ipsi- vs. contralesional side, whereas no signs of CS plasticity were found ipsilesionally. This finding implies that motor recovery of ipsilesional elbow flexion is primarily driven by the RS system. Results were inversed for the ipsilesional tibialis anterior, where RS drive was not augmented, but motor-evoked potentials recovered over six months post-injury, suggesting that CS plasticity contributed to improvements in ankle dorsiflexion. Our findings indicate that the role of RS and CS plasticity in motor recovery differs between muscles, with CS plasticity being essential for the restoration of distal extremity motor function, and RS plasticity being important for the functional recovery of proximal flexor muscles after SCI in humans.
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